JP4651652B2 - Power circuit equipment - Google Patents

Description

  The present invention relates to a power supply circuit device, and more particularly to a power supply circuit device using an IC package in which a lead shape introduced from a package body is improved.

  As is well known, an IC package in which an IC chip and a lead (lead pin) are connected by wire bonding or the like and is packaged with a package body made of resin is employed (see, for example, Patent Document 1).

  FIG. 2 shows an example in which a conventional IC package has five lead pins. 2A is a top view, FIG. 2B is a cross-sectional view taken along line BB in FIG. 2A, and FIG. 2C is a side view of FIG. 2B viewed from the direction of the arrow. .

  In a monolithic integrated circuit or a composite element including the power MOSFET 11, in order to mount the IC 12 on the power MOSFET 11, it is common to use lead pins with five pin pitches at equal intervals (d3). As shown in FIG. 2A, five lead pins 14 are provided on one side wall of the package body 13. In this case, the third pin 14c at the center is connected to the drain terminal of the MOSFET, the fifth pin 14e is connected to the source terminal, and the first pin 14a, the second pin 14b, and the fourth pin 14d are connected to the control terminal of the IC. Usually, a high potential is applied to the drain terminal of the MOSFET 11 and the source terminal is grounded to GND. Therefore, the potential difference between these two terminals becomes very large, so that the third pin 14c, The pin 14e is used.

FIG. 2B shows forming when this package is mounted. As shown in the figure, the first pin 14a, the third pin 14c, and the fifth pin 14e are bent upward to increase the creepage distance between the adjacent second pin 14b and the fourth pin 14d (FIG. 2 ( C)). This is a means used to suppress the occurrence of a short circuit between adjacent lead pins or the occurrence of solder bridges when soldered on a printed circuit board when an IC package having such a structure is mounted on the circuit board surface by soldering. .
JP-A-11-354702

  In general, for the convenience of assembly, the intervals between the lead pins are equal (d3), and the back surface of the internal element is connected to the central pin. That is, in the case of a power MOSFET, the drain electrode on the back surface is directly fixed by a conductive adhesive or the like. A power MOSFET package generally has 3 pins, and a creeping distance between a terminal (center terminal) to which a drain having a high potential is connected and another terminal adjacent thereto is sufficiently large. However, in a monolithic integrated circuit including a power MOSFET as described above, a composite element, or the like, in order to mount an IC on the power MOSFET, it is common to use five equally spaced lead pins. In this case, the third pin at the center is also connected to the drain electrode of the power MOSFET. Therefore, when a power MOSFET with a high withstand voltage such as 800 V is mounted, the creeping distance from other adjacent pins can be kept sufficiently with the equidistant lead pins. Absent. That is, when an IC package having such a structure is mounted on the circuit board surface by soldering, there is a problem that a short circuit due to dust or the like is likely to occur if the creepage distance between the second pin and the fourth pin adjacent to the third pin that is at a high potential is small. is there. Furthermore, when soldering on a printed circuit board, the solder spreads more than between the lead pins, and thus there is a problem that a solder bridge is likely to occur. For example, when the operating voltage is 700 V, the creepage distance is said to be 1.9 mm. In the conventional structure, when the creeping distance can be secured only about 1.7 mm even if the lead pin is bent up and down, May not meet safety standards. That is, the conventional lead pin structure is insufficient in securing the creepage distance.

  Further, in the conventional package, the header 14h portion connected by being integrally formed with the third pin has a bare structure despite the fact that the drain electrode having a high potential of 800V or the like is connected. There was also an unfavorable safety problem in handling.

  The present invention has been made in view of such a problem. First, it has a MOSFET, a package in which the MOSFET is sealed, and a plurality of lead pins led out from one side wall of the main body of the package. A power supply circuit device in which the drain terminal of the MOSFET is connected to a lead pin, wherein the distance between the other lead pins adjacent to the central lead pin, which is at a high potential, is larger than the distance between the other lead pins to provide a desired creepage distance. It solves by providing.

  The package has a full mold structure.

  An IC is mounted on the MOSFET.

  Second, it has a MOSFET, a package in which the MOSFET is sealed, and a plurality of lead pins led out from one side wall of the package body, and the drain terminal of the MOSFET is connected to a central lead pin among the plurality of lead pins. In the power supply circuit device, the interval between the other lead pins adjacent to the central lead pin that is at a high potential is made larger than the interval between the other lead pins, and the lead pin that has the lowest potential among the plurality of lead pins is in the lower stage. By bending the central lead pin at the upper stage and other lead pins at the middle stage between the upper and lower stages, a desired creepage distance is provided between the central lead pin at the high potential and the lead pin at the low potential. It is a solution.

  The package has a full mold structure.

  An IC is mounted on the MOSFET.

  Third, the MOSFET has a package in which the MOSFET is sealed and five lead pins led out from one side wall of the package body, and the drain terminal of the MOSFET is connected to the third lead pin located in the center. In the power supply circuit device, the interval between the other lead pins adjacent to the third lead pin having a high potential is made larger than the interval between the other lead pins, and the second and second low potential adjacent to the third lead pin are set. The problem is solved by providing four lead pins and a desired creepage distance.

  Further, the distance from the third lead pin to the second and fourth lead pins is longer than the distance between the first and second lead pins and the fourth and fifth lead pins.

  Further, the second and fourth lead pins are bent at the lower stage, the third lead pin is bent at the upper stage, the first and fifth lead pins are bent at the middle stage between the upper and lower stages, and the third lead pin and the A desired creepage distance is provided between the second and fourth lead pins.

  The package has a full mold structure.

  Further, an IC is mounted on the MOSFET.

  In other words, a sufficient creeping distance for safety is ensured by widening the distance between the third pin, which is at a high potential, and other adjacent lead pins, and further forming the lead pins in three stages: upper, middle and lower. is there.

  In addition, since the frame on the back of the package formed in the same process as the third pin is not exposed by adopting a full mold structure for the package body, a package that can be handled safely even when a high voltage is applied as a drain terminal is provided. To do.

  According to the present invention, the creepage distance in the horizontal direction with respect to the header is ensured by widening the interval between the third pin having a high potential and the other lead pins adjacent to the third pin more than the interval between the other lead pins. is there. Further, by forming the third pin in the upper stage, the first and fifth pins in the middle stage, and the second and fourth pins in the lower stage, the second pin is separated from the header in the vertical direction, and is further adjacent to the third pin. Further, the creepage distance with the fourth pin is increased. If the creepage distance increases, it is possible to prevent a short circuit due to a solder bridge or a short circuit due to dust or the like on the printed circuit board.

  Specifically, for example, in the case of 800V, a creepage distance of 2.1 mm is necessary, and when a conventional creepage distance of only 1.7 mm can be secured with five equally spaced pins, safety is insufficient. It was. However, according to the structure of the present invention, the distance between the second pin and the fourth pin adjacent to the third pin is increased to 2.54 mm, and further, a distance of about 5.8 mm is gained in the upper and lower stages, and depending on the forming angle. Since the distance can be further increased at the tip of the lead pin, a sufficient creeping distance can be secured for safety.

  Further, the package has a full mold structure, and the header portion to which the drain electrode having a high potential is fixed is not exposed on the back surface, so that the product can be handled safely and easily.

  The embodiment of the present invention will be described in detail with reference to FIG. 1 by taking a package of five lead pins as an example.

  1A is a top view, FIG. 1B is a cross-sectional view taken along the line AA in FIG. 1A, and FIG. 1C is a side view of FIG. 1B viewed from the direction of the arrow. FIG.

  The power supply circuit device according to the present invention includes a MOSFET 1, an IC 2, a package 3, and five lead pins 4.

  MOSFET 1 includes a number of MOSFET cells therein. The back surface is a drain electrode, and is fixed to the header 4h that is integrally formed with the third pin 4c by a conductive adhesive (see FIG. 1B).

  IC2 is mounted on MOSFET1 and connected to the source electrode and drain electrode of MOSFET1, and each control terminal is connected to first pin 4a, second pin 4b, and fourth pin 4d. (See FIG. 1B).

  The package 3 is obtained by sealing the MOSFET 1 and the IC 2 with an insulating resin by transfer molding or the like. Since the package 3 has a full mold structure, the back surface of the lead header 4h to which the drain electrode of the MOSFET 1 is fixed is covered with resin, and the header 4h to which a high voltage is applied is not exposed. It has become.

  The five lead pins 4 are led out from one side wall of the package body 3. Here, the first pin 4a, the second pin 4b, the third pin 4c, the fourth pin 4d, and the fifth pin 4e are designated from the end pins as shown in the figure. The third pin 4c located at the center is connected to the header 4h by being formed integrally with the header 4h. The drain electrode of the MOSFET 1 is connected to the header 4h, the third pin 4c serves as the drain terminal, and the fifth pin 4e serves as the source terminal. It becomes. The first pin 4a, the second pin 4b, and the fourth pin 4d serve as control terminals for the IC2. The distance d2 between the third pin 4c having the highest potential and the adjacent second pin 4b and the fourth pin 4d ensures a creepage distance that satisfies the safety standard, that is, the other lead pins, that is, the first pin 4a-second. The distance between the pin 4b interval d1 and the interval between the fourth pin 4d and the fifth pin 4e interval d1 is larger. Specifically, for example, the distance d2 between the third pin 4c and the second pin 4b or the third pin 4c and the fourth pin 4d is 2.54 mm, and the first pin 4a, the second pin 4b, and the fourth pin 4d-the second pin The interval d1 between the 5 pins 4e is set to 0.5 mm. For example, the safe creepage distance when the operating voltage is 700 V is 1.9 mm, and when the operating voltage is 800 V, the safe creepage distance is 2.1 mm. According to the structure of the present invention, the third pin 4c and the second pin 4b, The distance from the 4 pins 4d is sufficient.

  Further, as shown in FIG. 1B and FIG. 1C, the lead pin 4 led out from the package 3 is bent in the vertical direction, that is, perpendicular to the header 4h so as to be in three stages of an upper stage, a middle stage, and a lower stage. To form. Here, the second pin 4b and the fourth pin 4d are formed in the lower stage with the lead-out, the third pin 4c is formed at the highest position, the upper stage, and the first pin 4a and the fifth pin 4e are the upper stage and the lower stage. Form the middle position to the middle. Specifically, the distance h1 between the lower stage and the middle stage is 2.3 mm, and the distance h2 between the middle stage and the upper stage is 2.8 mm. Further, the tip end portion of the lead pin 4 to be soldered according to the forming angle can be further expanded vertically by a desired distance.

  A feature of the present invention is the arrangement of lead pins. By widening the distance between the third pin, which is a high potential, and the second pin and the fourth pin adjacent thereto, larger than the distance between the first pin, the second pin, and the fourth pin and the fifth pin, The creepage distance is secured. Further, by forming the third pin in the upper stage, the first and fifth pins in the middle stage, and the second and fourth pins in the lower stage, the second and fourth adjacent to the third pin also in the direction perpendicular to the header 4h. It increases the creepage distance with the pin.

  As described above, a sufficient creepage distance has been obtained in the stage before forming, but since solder spreads on the printed circuit board when mounted on the printed circuit board, in order to prevent short circuits caused by solder bridges and short circuits caused by dust It is preferable to ensure the creepage distance as much as possible. In other words, the lead pins are separated in the horizontal direction, and the third pin that forms the highest voltage in the three-stage forming is set to the upper stage, and the adjacent second and fourth pins are set to the lower stage, so that the vertical direction is also observed. Widen the distance to prevent short circuit and realize a desirable package for safety.

  Further, since the package has a full mold structure and the back surface of the header 4h to which the drain electrode having a high potential is fixed is not exposed on the back surface, handling of the product is safe and easy.

BRIEF DESCRIPTION OF THE DRAWINGS (A) Top view explaining the power supply circuit device of this invention, (B) Sectional drawing of the AA line, (C) Side view. BRIEF DESCRIPTION OF THE DRAWINGS It is (A) top view explaining the power supply circuit device in a prior art, (B) It is sectional drawing of a BB line, (C) It is a side view.

Explanation of symbols

1 MOSFET
2 IC
3 Package 4 Lead pin 4a 1st pin 4b 2nd pin 4c 3rd pin 4d 4th pin 4e 5th pin 4h Header 11 MOSFET
12 IC
13 Package 14 Lead pin 14a First pin 14b Second pin 14c Third pin 14d Fourth pin 14e Fifth pin 14h Header

Claims (4)

A MOSFET is mounted on the header part , and the MOSFET is fully molded including the back side of the header part and a plurality of lead pins led out from one side wall of the main body of the package,
The drain terminal of the MOSFET is connected to the center lead pin among the plurality of lead pins, and the height thereof is formed at the upper stage so as to be separated from the back surface side of the header portion,
Said central lead pin made of a high potential, which as the distance between other adjacent lead pins and greater than the distance between the other lead pin together, for other lead pin and adjacent to the center of the lead pins, the height A power supply circuit device, wherein the power supply circuit device is formed so as to be in a lower stage with respect to the central lead pin, and a desired creepage distance is provided therebetween.   The power supply circuit device according to claim 1, wherein an IC is mounted on the MOSFET. A MOSFET is mounted on the header portion, and a package in which the MOSFET is fully molded including the back side of the header portion and five lead pins led out from one side wall of the main body of the package,
The drain terminal of the MOSFET is connected to a third lead pin located in the center, and the height is formed at the upper stage so as to be separated from the back surface side of the header part,
The distance between the third lead pin having a high potential and another lead pin adjacent thereto is made larger than the interval between the other lead pins, and the second and fourth lead pins having low potential adjacent to the third lead pin. The power supply circuit device is characterized in that the height is formed so as to be lower than the third lead pin, and a desired creepage distance is provided between them .   The power supply circuit device according to claim 3, wherein an IC is mounted on the MOSFET.

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